Healthcare has witnessed tremendous growth in terms of various therapeutics and treatment therapies. The increasing emphasis given to the effective patient care are giving rise to effective procedures that could bring a major change in the way patients are treated. 3D cell culture is one such effective area of healthcare that has been growing on the back of continual research and development activities.
Cell culture is a significant aspect of oncology, owing to which there are several research activities being conducted to examine its role in the field of oncology. It plays a crucial role in understanding the physiology and morphology of cells. The use of cell culture in drug development helps in comprehending the cellular pathways. 3D cell culture is used to create an artificial environment for cell growth, thereby assisting in studying the responsive behavior of the cells in the given environment. With these continual efforts made towards aspects such as drug discovery and drug research, the 3d cell culture landscape is expected to witness notable developments in the near future. Life science has projected major advancements owing to the growth captured by 3D cell culture.
Drug Discovery to Speed Up with Developments in 3D Cell Culture
2D cell culture models are known to be effective in the process of drug development and discovery owing to their easy applicability and the ability to establish compatibility with high-throughput screening techniques. However, modern biotechnology and pharmaceutical companies are adopting 3d cell culture tools and models as the 3D cell culture models and tools reflect enhanced correlation to in vivo results.
An organization specializing in 3d cell culture assays, Visikol, expanded its service offerings in the drug discovery avenue. Visikol recently announced that it would introduce its liver 3D cell culture models with which it could build a significant market presence. It would be carry out the open-sourcing of its protocols, models, and validation criteria to help researchers in replicating the models for further research efforts.
3d Printing Technology Unfolds New Possibilities
3D printing is witnessing major growth over the years with the years. There are new cell cultures being developed by the help of this ever-growing technology. According a team of researchers who contributed to the research paper, Biomimetic hydrogels provide various opportunities in medical applications. However, the synthetic microenvironments, which help in simulating the natural tissue niches on the cell differentiation and growth need a new way to control the hydrogel feature resolution, mechanical, and biofunctionalization attributes. In the researchers reflected progress in this space in the paper, where they find potential in the 3d printing technology. According to the researchers, the aforementioned challenges could be achieved with the help of 3d printable pullulan-based hydrogel with properties such as tunable mechanical attributes.
Key Recent Developments in the 3D Cell Culture Landscape
In an attempt to streamline the overall process of boosting therapeutics, advancing in drug research, and further transforming the industry, the 3d cell culture landscape has witnessed crucial developments that could open new doors in the field of oncology, drug discovery and clinical possibilities. Prellis Biologics, for instance, a tissue engineering company recently introduced pre-vascularized 3D tissue scaffolds. Claimed to be a first-of-its-kind, the scaffolds are biocompatible which could be used by researchers for growing any cell type in 3 dimensional format that are 1000 times larger compared to 3D spheroids. This line of pre-vascularized 3D scaffolds could be used for 3d cell cultures and have the potential to redefine the field of life science with such novel development. This would further help provide more accurate results in the research and development.
The 3D cell culture landscape reflects several such developments over the forthcoming years. To avail an insightful glance into the 3d cell culture ecosystem and obtain an overview of the key aspects governing the market, click here.